Milling process can produce complicated workpieces, so it was used widely in manufacturing. However, the inappropriate cutting conditions will be easy to induce regenerative chatter, which is the most common of chatter in milling, and it will damage tools and the surface of workpieces, and cause a lot of noise. To prevent regenerative chatter from affecting manufacturing quality, the select of appropriate cutting condition is necessary. Besides, the understand of machine tool dynamics will also increase production efficiency. On the other hand, in cutting processes, there may be unexpectedly regenerative chatter, so the cutting process should be monitored on-line. Nevertheless, when the regenerative chatter happens, the tool and surface of workpieces were injured. Therefore, the chatter is supposed to be predicted and be suppress to occur before it damage tool and workpieces. This work proposes a decision of appropriate cutting condition before machining, combining the economics of cutting and the stability of machine tool. It offers the cutting speeds for minimum cost and for minimum production time, and considers the stability lobe diagrams and the power of spindle to get appropriate cutting conditions, making the most of efficiency of machine tool. Moreover, in practice, the dynamometers are expensive , so it can’t be used to get the cutting coefficient , essential to build the stability lobe diagram . This work also proposes a convenient strategy, and sets up a linear model of the cutting load and average cutting forces . By the model, the cutting load from CNC controller can be transfered to the average cutting force to get the real cutting coefficient , it makes the stability lobe diagrams and cutting conditions more accurate . For the prediction of chatter and the suppression of chatter , this work improves the strategies , presented by the lab , makes them more useful to machining , and implements a modular program , able to connect the CNC controller . The experiment result shows that, the material removal rate of cutting condition decided by this work increases by 35% and the tool life goes up to 2 times, compared to the experienced cutting conditions . Addtionally, the differences between the cutting coefficients by the strategy and the real cutting coefficients are less than 5.5%. The modular program can preditct the chatter occur before the chatter amplitude is still small, and quickly suppress the chatter.